US2023268778A1PendingUtilityA1
Wireless power transmission system capable of changing power transmission frequency
Est. expiryJan 18, 2039(~12.5 yrs left)· nominal 20-yr term from priority
H02J 50/20H02J 7/02H02J 50/402H02J 50/80H02J 50/23
72
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Claims
Abstract
Various wireless power systems are described that are capable of changing a transmit frequency employed by antennae, or groups of antennae, of the wireless power system, e.g., adjusting a current transmit frequency to a new transmit frequency within an operable frequency range, or switching among different transmit frequencies to increase a transmission characteristic of the wireless power system.
Claims
exact text as granted — not AI-modified1 . (canceled)
2 . A wireless power delivery system, comprising:
an array of antenna elements positioned on a surface of a substrate, wherein a first antenna element of the array of antenna elements transmits first power at a first frequency and a second antenna element of the array of antenna elements transmits second power at a second frequency, different than the first frequency; and an antenna management component that:
receives, via the array of antenna elements, respective portions of a wireless beacon signal that has been transmitted by a wireless charging device,
determines characteristics of the respective portions of the wireless beacon signal measured by respective antenna elements of the array of antenna elements,
based on the characteristics of the respective portions of the wireless beacon signal measured by the respective antenna elements of the array of antenna elements, determines a change in condition has manifested according to a defined change criterion that triggers an analysis of whether to modify, via at least one of the first antenna element or the second antenna element, a frequency emitted by the wireless power delivery system to the wireless charging device to obtain a modified frequency, and
in response to the frequency emitted by the wireless power delivery system being determined, via the analysis comprising an analysis of a predicted movement of a receiving element of the wireless charging device, to be modified, modifying, via the at least one of the first antenna element or the second antenna element, the frequency to deliver power according to the modified frequency.
3 . The wireless power delivery system of claim 2 , wherein the analysis comprises receiving feedback from the wireless charging device relating to the charging performance experienced by the wireless charging device when receiving the first power according to the first frequency relative to when receiving the second power according to the second frequency.
4 . The wireless power delivery system of claim 2 , wherein the analysis comprises receiving feedback from the wireless charging device relating to respective strengths of the first power and the second power received by the wireless charging device.
5 . The wireless power delivery system of claim 2 , wherein the analysis comprises receiving feedback from the wireless charging device relating to respective reliabilities of the first power and the second power received by the wireless charging device.
6 . The wireless power delivery system of claim 2 , wherein the analysis comprises receiving feedback from the wireless charging device relating to respective constructive interferences that have been measured based on the first power and the second power received by the wireless charging device.
7 . The wireless power delivery system of claim 2 , wherein the analysis comprises the analysis of historical feedback previously received about which of at least one of the first frequency or the second frequency is likely to best deliver the power for the change in the condition.
8 . The wireless power delivery system of claim 2 , wherein the analysis comprises the analysis of present feedback from the wireless charging device about a performance of the wireless charging device with respect to currently receiving at least one of the first power according to the first frequency or the second power according to the second frequency.
9 . The wireless power delivery system of claim 2 , wherein the predictive movement analysis comprises the analysis of the predicted movement of the receiving element of the wireless charging device with respect to a defined location of a building.
10 . A wireless power delivery system, comprising:
an array of antenna elements positioned on a surface of a substrate, wherein a first antenna element of the array of antenna elements transmits first power within a first frequency range and a second antenna element of the array of antenna elements transmits second power within a second frequency range; and an antenna management component that:
receives, via the array of antenna elements, respective portions of a wireless calibration signal that has been transmitted by a wireless charging device,
based on characteristics of the respective portions of the wireless signal measured by respective antenna elements of the array of antenna elements, determines, according to a defined change criterion, that a condition of an environment in which the wireless power delivery system and the wireless charging device are situated has changed, thereby initiating an analysis of whether to change at least one of a first operating frequency in the first frequency range of the first antenna element to a modified first operating frequency within the first frequency range or a second operating frequency in the second frequency range of the second antenna element to a modified second operating frequency within the second frequency range, and
in response to determining, via the analysis comprising an analysis of a predicted movement of a receiving element of the wireless charging device, that the at least one of the first operating frequency or the second operating frequency is to change, changes the at least one of the first operating frequency or the second operating frequency to deliver power according to the at least one of the modified first operating frequency or the modified second operating frequency.
11 . The wireless power delivery system of claim 10 , wherein the at least one of the first frequency range or the second frequency range comprises an ultra wide band range of frequencies.
12 . The wireless power delivery system of claim 11 , wherein the wireless charging device is configured to receive the power according to the ultra wide band range of frequencies.
13 . The wireless power delivery system of claim 10 , wherein the first frequency range and the second frequency range are a same frequency range.
14 . A method, comprising:
receiving, by a system comprising a processor via at least one antenna element of an array of antenna elements that has been formed on a substrate, feedback from a wireless charging client relating to a quality of a power charging experience occurring at the wireless charging client as a result of at least one of a first frequency of first power emitted within a first operable frequency range by a first antenna element of the array of antenna elements or a second frequency of second power emitted within a second operable frequency range by a second antenna element of the array of antenna elements, wherein the receiving of the feedback comprises receiving a wireless calibration signal that has been transmitted by the wireless charging client; and based on a result of analyzing the feedback, the analyzing comprising an analysis of a predicted movement of a receiving element of the wireless charging device, changing emission of at least one of the first power at the first frequency or emission of the second power at the second frequency to at least one of emission of modified first power at a modified first frequency with the first operable frequency range or modified second power at a modified second frequency with the second operable frequency range.
15 . The method of claim 14 , further comprising:
in response to the determining that the quality of the power charging experience of the wireless charging device has increased, ceasing the analyzing of the feedback until a change in condition according to a condition change criterion is satisfied.
16 . The method of claim 14 , wherein the second frequency range is different from the first frequency range.
17 . The method of claim 14 , wherein the first frequency range and the second frequency range are a same frequency range.
18 . A method, comprising:
receiving, by a system comprising a processor via at least one antenna element of an array of antenna elements that has been formed on a substrate, feedback from a wireless charging client relating to a quality of a power charging experience occurring at the wireless charging client as a result of at least one of a first frequency of first power emitted at a first frequency by a first antenna element of the array of antenna elements, a second frequency of second power emitted individually by a group of second antenna elements of the array of antenna elements, or a third frequency of third power emitted together by the group of second antenna elements at an effective frequency that is different than the second frequency, wherein the receiving of the feedback comprises receiving a wireless beacon signal that has been transmitted by the wireless charging client; and based on a result of analyzing the feedback, the analyzing comprising initiating an analysis of a predicted movement of a receiving element of the wireless charging device, switching from a current emission at a current frequency to at least one of emission of at least one of the first power at the first frequency, emission of the second power at the second frequency, or emission of the third power at the third frequency.
19 . The method of claim 18 , further comprising:
in response to the switching, determining that the quality of the power charging experience of the wireless charging device has increased.
20 . The method of claim 18 , wherein the effective frequency of the third frequency is at or about the first frequency.
21 . The method of claim 18 , wherein the second frequency is different from the first frequency.Join the waitlist — get patent alerts
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